Carbon Capture From Flue Gas and the Atmosphere: A Perspective

Wang, Xiaoxing; Chen, Song

doi:10.3389/fenrg.2020.560849

Cited by 200 publications

(151 citation statements)

References 294 publications

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“…We discuss the metabolic consequence of the different photosynthetic and respiratory responses to high or low CO 2 levels in two Chlorella genus. It worth to note that CO 2 concentration in flue gases can reach higher concentration than 3%, being usually in the 10–20% range (X. Wang & Song, 2020 ). Previous work demonstrated that increase CO 2 availability in the range of 1–8% saturated biomass productivity in C. vulgaris , while higher CO 2 concentration caused a strong reduction in biomass yield (Garcia‐Cubero et al, 2018 ).…”

Section: Discussionmentioning

confidence: 99%

CO₂ supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

Cecchin

Paloschi

Busnardo

et al. 2021

Plant Cell & Environment

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Microalgae represent a potential solution to reduce CO 2 emission exploiting their photosynthetic activity. Here, the physiologic and metabolic responses at the base of CO 2 assimilation were investigated in conditions of high or low CO 2 availability in two of the most promising algae species for industrial cultivation, Chlorella sorokiniana and Chlorella vulgaris. In both species, high CO 2 availability increased biomass accumulation with specific increase of triacylglycerols in C. vulgaris and polar lipids and proteins in C. sorokiniana. Moreover, high CO 2 availability caused only in C. vulgaris a reduced NAD(P)H/NADP + ratio and reduced mitochondrial respiration, suggesting a CO 2 dependent increase of reducing power consumption in the chloroplast, which in turn influences the redox state of the mitochondria. Several rearrangements of the

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Section: Discussionmentioning

confidence: 99%

CO₂ supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

Cecchin

Paloschi

Busnardo

et al. 2021

Plant Cell & Environment

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“…XGBoost (XGB): XGBoost algorithm 86 as implemented in XGBoost python module (v.1.2.0) 87 was used. The following hyperparameters were tuning during optimization (grid search): number of trees (50, 100, 300, 500), number of features (all features, 70% of all features), number of samples (all samples, 70% of all samples), the maximum depth of the tree (3,5,10), learning rate (0.3, 0.1, 0.5, 0.05), the minimum sum of instance weight needed in a node (1,5,10). All other parameters were left as default.…”

Section: Machine Learning Algorithmsmentioning

confidence: 99%

Chemoinformatics-Driven Design of New Physical Solvents for Selective CO₂ Absorption

Orlov

Demenko

Bignaud

et al. 2021

Environ. Sci. Technol.

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The removal of CO 2 from gases is an important industrial process in the transition to a lowcarbon economy. The use of selective physical (co-)solvents is especially perspective in cases when the amount of CO 2 is large as it enables one to lower the energy requirements for solvent regeneration. However, only a few physical solvents have found industrial application and the design of new ones can pave the way to more efficient gas treatment techniques. Experimental screening of gas solubility is a labor-intensive process, and solubility modeling is a viable strategy to reduce the number of solvents subject to experimental measurements. In this paper, a chemoinformatics-based modeling workflow was applied to build a predictive model for the solubility of CO 2 and four other industrially important gases (CO, CH 4 , H 2 , N 2 ). A dataset containing solubilities of gases in 280 solvents was collected from literature sources and supplemented with the new data for six solvents measured in the present study. A modeling workflow based on the usage of several state-of-the-art machine learning algorithms was applied to establish quantitative structure-solubility relationships. The best models were used to perform virtual screening of the industrially produced chemicals. It enabled the identification of compounds with high predicted CO 2 solubility and selectivity towards the other gases. The prediction for one of the compounds − 4-Methylmorpholine was confirmed experimentally. SYNOPSIS STATEMENTDeveloping better solvents for selective CO 2 capture is crucial for reaching net-zero emissions targets.4

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“…academics and industry, notably in China. It is anticipated that the CO 2 concentration will reach 900-1100 ppm if we will not take immediate and major actions to reduce the CO 2 emissions (Wang and Song, 2020) and the temperature will rise 5°C by the century's end (Pachauri and Reisinger, 2007). As a result, it is necessary to reduce CO 2 emissions from stationeries especially fossil fuel power plants.…”

Section: H I G H L I G H T Smentioning

confidence: 99%

Potassium carbonate-based ternary transition temperature mixture (deep eutectic analogues) for CO2 absorption: Characterizations and DFT analysis

Ghaedi

Kalhor

Zhao

et al. 2021

Front. Environ. Sci. Eng.

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Is it possible to improve CO2 solubility in potassium carbonate (K2CO3)-based transition temperature mixtures (TTMs)? To assess this possibility, a ternary transition-temperature mixture (TTTM) was prepared by using a hindered amine, 2-amino-2-methyl-1,3-propanediol (AMPD). Fourier transform infrared spectroscopy (FT-IR) was employed to detect the functional groups including hydroxyl, amine, carbonate ion, and aliphatic functional groups in the prepared solvents. From thermogravimetric analysis (TGA), it was found that the addition of AMPD to the binary mixture can increase the thermal stability of TTTM. The viscosity findings showed that TTTM has a higher viscosity than TTM while their difference was decreased by increasing temperature. In addition, Eyring’s absolute rate theory was used to compute the activation parameters (∆G*, ∆H*, and ∆S*). The CO2 solubility in liquids was measured at a temperature of 303.15 K and pressures up to 1.8 MPa. The results disclosed that the CO2 solubility of TTTM was improved by the addition of AMPD. At the pressure of about 1.8 MPa, the CO2 mole fractions of TTM and TTTM were 0.1697 and 0.2022, respectively. To confirm the experimental data, density functional theory (DFT) was employed. From the DFT analysis, it was found that the TTTM + CO2 system has higher interaction energy (|∆E|) than the TTM + CO2 system indicating the higher CO2 affinity of the former system. This study might help scientists to better understand and to improve CO2 solubility in these types of solvents by choosing a suitable amine as HBD and finding the best combination of HBA and HBD.

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Carbon Capture From Flue Gas and the Atmosphere: A Perspective

Cited by 200 publications

References 294 publications

CO₂ supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

CO₂ supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

Chemoinformatics-Driven Design of New Physical Solvents for Selective CO₂ Absorption

Potassium carbonate-based ternary transition temperature mixture (deep eutectic analogues) for CO2 absorption: Characterizations and DFT analysis

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Carbon Capture From Flue Gas and the Atmosphere: A Perspective

Cited by 200 publications

References 294 publications

CO2 supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

CO2 supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

Chemoinformatics-Driven Design of New Physical Solvents for Selective CO2 Absorption

Potassium carbonate-based ternary transition temperature mixture (deep eutectic analogues) for CO2 absorption: Characterizations and DFT analysis

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CO₂ supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

CO₂ supply modulates lipid remodelling, photosynthetic and respiratory activities in Chlorella species

Chemoinformatics-Driven Design of New Physical Solvents for Selective CO₂ Absorption